Decorative panel mounting structure

ABSTRACT

The present invention relates to a decorative panel mounting structure. The existing connectors fix decorative panels through exposed clamping strips, resulting in uneven exposed surfaces of the decorative panels. The decorative panel mounting structure provided by the present invention comprises decorative panels and connectors, wherein the bottom of the connector is provided with a bottom plate fitting with and fixedly connected to a wall surface, the middle of a side wall of the decorative panel is provided with a clamping groove, two sides of the top of the connector respectively extend outwards to form a clamping strip inserted into the clamping groove for positioning, the adjacent decorative panels are fixedly connected to the wall surface through the clamping grooves with which the corresponding clamping strips are sleeved, and an area on the side wall of the decorative panel and above the clamping groove is a horizontal plane. The middle of the side wall of the decorative panel is provided with the clamping groove, such that a station on the decorative panel for mounting of the connector is switched from an exposed surface of the decorative panel to the side wall of the decorative panel, and the clamping groove is used to cover the clamping strip, not only ensuring the connection strength between the connector and the decorative panel, but also avoiding a situation in which the decorative effect of the decorative panel is affected when the size of the clamping strip is increased to improve the structural strength.

FIELD OF THE INVENTION

The present invention relates to the field of interior decoration, in particular to a decorative panel mounting structure.

BACKGROUND OF THE INVENTION

In the prior art, decorative panels are spliced and fixedly connected to each other through connectors. The existing connecting plate comprises a bottom plate fixedly connected to a wall surface and a clamping strip covering the edge of the exposed surface of the decorative panel. Since the clamping strip is exposed outside the decorative panel and plays a role of preventing the decorative panel from being separated from the wall surface, the clamping strip is required to have good structural strength, rendering the clamping strip relatively thick and solid, thereby affecting the aesthetics. In addition, since the original integrated wall is only used indoors, there is no anti-splashing water structure at the joint between the decorative panel and the connector. When the integrated wall is used in the open air or in the environment prone to water splashing, the water outside the decorative panel is easy to enter the inner side of the decorative panel through the gap between the connector and the decorative panel, resulting the space between the decorative panel and the wall surface being in a wet environment for a long time, in which case bacterium breeding is easy to occur and mildew appears, so the user will get sick due to the contact with bacteria, and the metal parts are easy to rust, thereby affecting the structural strength and shortening the service life.

SUMMARY OF THE INVENTION

In order to overcome the defects of the prior art, the present invention provides a decorative panel mounting structure, wherein a clamping strip playing a role of fixing is clamped in a clamping groove provided on a side wall of a decorative panel to hide the clamping strip, not only ensuring the connection stability between the decorative panels, but also improving the decorative effect of the decorative panel, thereby improving aesthetics.

The present invention is implemented as follows: a decorative panel mounting structure comprises decorative panels spliced in a matching manner and a connector provided between adjacent decorative panels, wherein the decorative panels comprise an upper decorative panel provided above the connector and a lower decorative panel provided below the connector, the inner side of the connector is provided with a bottom plate fitting with and fixedly connected to a wall surface, the middle of an end surface of the decorative panel is provided with a clamping groove, an outer end portion of the connector vertically extends to form a clamping strip inserted into the clamping groove for positioning, the adjacent decorative panels are fixedly connected to the wall surface through the clamping grooves with which the corresponding clamping strips are sleeved, and an area on the end surface of the decorative panel and on the outer side of the clamping groove is a horizontal plane. The clamping groove is provided in the middle of the end surface of the decorative panel, such that a station on the decorative panel for mounting of the connector is switched from an exposed surface of the decorative panel to the end surface of the decorative panel; and the clamping groove is used to cover the clamping strip, not only ensuring the connection strength between the connector and the decorative panel, but also avoiding a situation in which the decorative effect of the decorative panel is affected when the size of the clamping strip is increased to improve the structural strength. The corresponding end surfaces of the adjacent decorative panels steady abut each other, thereby improving connection stability, preventing a relative movement, and providing a mounting space for the connector.

Preferably, the outer side of the connector is provided with an exposed protruding portion, and the outer edge of the end surface of the decorative panel abuts end walls of two ends of the protruding portion. A space for exposing the protruding portion is provided between the decorative panels, and the end surface of the decorative panel abuts a side wall of the protruding portion, effectively reducing an assembly gap between the decorative panel and the protruding portion, thereby improving the decorative effect. In addition, matching and abutting between the decorative panel and the protruding portion also play a role of relative positioning, so as to prevent the decorative panels from deviating from a predetermined station due to the relative movement therebetween, in which case the decorative effect is affected.

Preferably, an outer end of the connector is provided with an integrally formed protruding portion, and the protruding portion is provided with a decorative surface. The protruding portion is formed by extending the outer end of the connector outwards, such that the protruding portion has better structural strength, ensuring abutting stability of the decorative panel; and an outer end of the protruding portion is exposed between the decorative panels and can be directly viewed by a user, thereby effectively improving the decorative effect.

Preferably, the outer end of the protruding portion protrudes from the exposed surface of the decorative panel, the bottom edge and the top edge of an outer end surface of the protruding portion respectively and vertically extend to form a shielding strip, and an inner side wall of the shielding strip abuts the edge of the exposed surface of the decorative panel. The shielding strip is formed by extending the outer edge of the side wall of the protruding portion along the exposed surface of the decorative panel and plays a role of shielding a gap between the protruding portion and the edge of the decorative panel. In addition, the inner side wall of the shielding strip matches and abuts the exposed surface of the decorative panel, thereby further improving the connection strength between the decorative panel and the connector.

Preferably, the protruding portion comprises a protruding rib formed by extending the outer end of the connector outwards and a decorative cover covering an outer end portion of the protruding rib. The protruding rib is used to clamp and fix the decorative cover, and the decorative cover can be replaced according to a decoration style. Therefore, not only use costs can be effectively reduced, but also the decorative cover can be replaced at any time according to the interior decoration style. During mounting, a groove strip with which the protruding rib can be sleeved is provided on a mounting surface of the decorative cover and facing the connector, so as to facilitate mounting and dismounting of the decorative cover.

Preferably, the connector is I-shaped, an inner vertical portion of the connector forms the bottom plate, two ends of an outer vertical portion of the connector form the clamping strip, and the decorative panels are fixedly connected to each other through the connectors, such that the exposed surfaces of the decorative panels are flatly spliced. A space for hidden mounting of the I-shaped connector is pre-configured between the adjacent decorative panels, so as to ensure that the decorative panels have a flat exposed surface after being mounted through the connectors.

Preferably, the surface of the clamping strip is provided with anti-slip teeth, so as to prevent the clamping strip from being separated from the clamping groove.

Preferably, the bottom plate is fixedly connected to a predetermined station through a fastener, and an outer side wall of the bottom plate is provided with an avoidance groove matching the fastener. An end portion of the fastener is hidden in the avoidance groove, so as to ensure that the top surface of the bottom plate is flat and thus ensure that the decorative panel can flatly overlap the bottom plate through the hidden groove, such that a joint between the decorative panels is flat.

Preferably, a cavity is provided in the connector. By providing the cavity, the amount of raw materials used for producing the connector is reduced, thereby reducing production costs.

Preferably, an outer end surface of the protruding portion is provided with an opening communicating with the cavity. By providing the opening, the cavity is exposed, so as to improve the visual effect of the protruding portion and thus improve the decorative effect.

Preferably, the periphery of the opening vertically extends inwards to form a closing strip. The closing strip is provided along two sides of the opening, such that the cavity is in a shape having a lager body and a smaller mouth, which facilitates clamping of external hanging structures such as hooks, thereby improving the user experience.

Preferably, the edge of an inner hidden surface of the decorative panel and facing the wall surface is depressed to form a hiding groove for accommodating the bottom plate, and the depth of the hiding groove matches the thickness of the bottom plate. The bottom plate is fixedly connected to the wall surface, and the corresponding clamping strip is sleeved with the decorative panel through the clamping groove, such that the bottom plate is hidden in the hiding groove, thereby not only improving the abutting stability by increasing a contact area, but also making the decorative panel match and fit with the wall surface so as to ensure the flatness between the decorative panels.

Preferably, the upper decorative panel is provided above the connector, the bottom surface of the upper decorative panel is provided with the clamping groove opened downwards, the mouth of the clamping groove forms an upper inserting strip and an upper water blocking strip with bottom edge altitudes thereof configured to be staggered, after being mounted in place, the top of the clamping strip is tightly clamped between the upper inserting strip and the upper water blocking strip, and an inner side wall of the clamping strip closely fits with an outer side wall of the upper inserting strip. The upper water blocking strip is added on the bottom surface of the original decorative panel. Since the bottom edge of the upper water blocking strip is configured below the top edge of the clamping strip, external water cannot pass through the clamping strip after passing through the upper water blocking strip, thereby preventing the water from leaking from an outer side space of the decorative panel and back on to a wall body to an inner side space of the decorative panel and facing the wall body, ensuring the dryness of the inner side space of the decorative panel. Therefore, bacterium breeding is effectively avoided and a mildew situation is prevented to occur, thereby ensuring the health of the user, reducing cleaning and maintenance costs; and additionally, a situation in which metal parts rust due to the presence in a wet environment for a long time is avoided, thereby extending the service life of the parts and reducing the use costs. The clamping strip is inserted into the clamping groove from bottom to top, the clamping strip not only plays a role of vertically supporting the upper decorative panel to ensure that the upper decorative panel is positioned at a predetermined altitude for facilitating matching and splicing of the adjacent decorative panels, but also plays a role of horizontally positioning the upper decorative panel to ensure that the distance between the upper decorative panel and the wall surface is consistent such that the adjacent decorative panels form a flat exposed decorative surface after being spliced. The inner side wall of the clamping strip closely fits with the outer side wall of the upper inserting strip. After assembly is completed, the distance from the inner side wall of the clamping strip to the wall surface is not greater than the distance from the outer side wall of the upper inserting strip to the wall surface, such that the upper inserting strip is inserted into the clamping groove in an interference fit manner, not only enhancing horizontal positioning of the decorative panel, but also improving anti-splashing water performance through the close fitting between the inner side wall of the clamping strip and the outer side wall of the upper inserting strip.

Preferably, the altitude of the upper water blocking strip matches the altitude of the clamping strip, and after being mounted in place, a bottom surface of the upper water blocking strip is configured to be in flush with the bottom edge of the clamping strip. The bottom surface of the clamping strip overlaps the ground, such that the bottom surface of the upper water blocking strip also overlaps the ground. By reducing a gap between the ground and the bottom surface of the upper water blocking strip, both the anti-splashing water performance and the decorative effect are improved.

Preferably, the lower decorative panel is provided below the connector, the inner edge of a top surface of the upper decorative panel extends upwards to form a lower inserting strip, after assembly is completed, the lower inserting strip is tightly inserted between the bottom of the clamping strip and the wall surface from bottom to top, such that the bottom surface of the upper water blocking strip overlaps a top surface of the lower decorative panel, an assembly gap is reserved between a top surface of the clamping strip and the bottom surface of the upper decorative panel, and the inner side wall of the clamping strip closely fits with an outer side wall of the lower inserting strip. The top surface of the lower inserting strip is above the outer edge of the top surface of the lower decorative panel. After the lower decorative panel is mounted in place, the bottom surface of the clamping strip overlaps the top surface of the lower decorative panel, and there is an upper gap between the clamping strip and the lower decorative panel. The lower inserting strip can effectively block water flowing through the upper gap, playing a role of anti-splashing water. In addition, the lower inserting strip is inserted between the bottom of the clamping strip and the wall surface from bottom to top. The clamping strip not only plays a role of vertically positioning the lower decorative panel to ensure that the lower decorative panel is positioned at the predetermined altitude for facilitating matching and splicing of the adjacent decorative panels, but also plays a role of horizontally positioning the lower decorative panel to ensure that the distance between the lower decorative panel and the wall surface is consistent such that the adjacent decorative panels form a flat exposed decorative surface after being spliced. By configuring the altitudes of the upper water blocking strip and the clamping strip, the assembly gap is reserved between the top surface of the clamping strip and the bottom surface of the upper decorative panel after assembly, so as to ensure that the upper water blocking strip has an sufficient space for moving down and overlaps the top surface of the lower decorative panel. Therefore, a gap between the decorative panels is reduced, not only improving the anti-splashing water effect between the upper decorative panel and the lower decorative panel, preventing the external water from entering the inner side space through the gap between the decorative panels, but also ensuring the aesthetics. The inner side wall of the clamping strip closely fits with the outer side wall of the lower insert strip. After the assembly is completed, the distance from the inner side wall of the clamping strip to the wall surface is not greater than the distance from the outer side wall of the lower inserting strip to the wall surface, such that the lower inserting strip is inserted between the bottom of the clamping strip and the wall surface in an interference fit manner, not only enhancing the horizontal positioning of the decorative panel, but also improving the anti-splashing water performance through the close fitting between the inner side wall of the clamping strip and the outer side wall of the lower inserting strip.

Preferably, the bottom edge of the clamping strip extends outwards to form a spacing strip, and after the assembly is completed, the bottom surface of the upper water blocking strip and the outer edge of the top surface of the lower decorative panel cooperate with each other and vertically clamp the spacing strip, such that an outer end surface of the spacing strip is exposed. The spacing strip plays a role of isolating the upper decorative panel from the lower decorative panel. The upper decorative panel overlaps the spacing strip through the upper water blocking strip to ensure that the upper decorative panel is positioned at the predetermined altitude. The exposed spacing strip also plays a role of decoration, so as to improve the aesthetics.

Preferably, the outer end surface of the spacing strip is configured to be in flush with an outer side wall of the upper decorative panel in the vertical direction. The outer end surface of the spacing strip, the outer side wall of the upper decorative panel, and the outer side wall of the lower decorative panel are configured to be in flush with each other, so as to ensure that a flat wall surface is formed after mounting of the decorative panels, thereby ensuring the overall aesthetics.

Preferably, an outer end of the spacing strip is bent to form a decorative strip, and the decorative strip overlaps the edge of an outer side wall of the upper decorative panel or the lower decorative panel. The decorative strips protrude from the decorative panels and are spliced to form an exposed decorative surface, thereby effectively improving the decorative effect, and horizontally positioning the upper decorative panel or lower decorative panel, so as to maintain the distance between the decorative panel and the wall. The decorative strip preferably overlaps the top edge of the exposed surface of the lower decorative panel, so as to prevent seeping of the external water through a lower gap between the lower decorative panel and the spacing strip.

Preferably, the decorative strip is sleeved with a decorative cover, a groove strip is provided on an inner side wall of the decorative cover, and the decorative cover completely covers the decorative strip through the groove strip. The decorative cover is a detachable structure, and a decoration style on the decorative cover may be varied, so as to facilitate selection and replacement by the user according to an actual situation. The decorative cover completely covers the decorative strip, and the decorative strip provides a stable support for the decorative cover.

Preferably, the outer edge of the top surface of the lower decorative panel extends upwards to form a lower water blocking strip, and after the assembly is completed, the bottom surface of the upper water blocking strip overlaps a top surface of the lower water blocking strip. The lower gap exists between the clamping strip and the top surface of the lower decorative panel, and the lower water blocking strip covers the lower gap with a horizontal projection, achieving the effect of water blocking.

Preferably, the middle of an outer side wall of the clamping strip extends outwards to form a spacing strip, and after the assembly is completed, the bottom surface of the upper water blocking strip and the top surface of the lower water blocking strip cooperate with each other and vertically clamp the spacing strip, such that an outer end surface of the spacing strip is exposed. The spacing strip is provided in the middle of the outer side wall of the clamping strip, playing a role of spacing the upper decorative panel and the lower decorative panel, and also playing a role of providing a stable support for the upper decorative panel.

The present invention has the following beneficial effects: the clamping groove is provided in the middle of the end surface of the decorative panel, such that the station on the decorative panel for mounting of the connector is switched from the exposed surface of the decorative panel to the end surface of the decorative panel, and the clamping groove is used to cover the clamping strip, not only ensuring the connection strength between the connector and the decorative panel, but also avoiding a situation in which the decorative effect of the decorative panel is affected when the size of the clamping strip is increased to improve the structural strength.

DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic view of a connecting structure according to the present invention;

FIG. 2 is a schematic view of a connecting structure according to embodiment 1 of the present invention;

FIG. 3 is a schematic view of a connecting structure according to embodiment 2 of the present invention;

FIG. 4 is a schematic view of a connecting structure in which a protruding portion protrudes outwards according to embodiment 2 of the present invention;

FIG. 5 is a schematic view of a connecting structure according to embodiment 3 of the present invention;

FIG. 6 is a schematic view of a connecting structure according to embodiment 4 of the present invention;

FIG. 7 is a schematic view of a connecting structure according to embodiment 5 of the present invention;

FIG. 8 is a schematic view of a connecting structure according to embodiment 6 of the present invention;

FIG. 9 is a schematic view of a connecting structure according to embodiment 7 of the present invention;

FIG. 10 is a schematic view of a connecting structure according to embodiment 7 of the present invention;

FIG. 11 is a schematic view of a connecting structure according to embodiment 8 of the present invention;

FIG. 12 is a schematic view of a connecting structure in which a protruding portion protrudes outwards according to embodiment 8 of the present invention;

FIG. 13 is a schematic view of a connecting structure according to embodiment 9 of the present invention;

FIG. 14 is a schematic view of a connecting structure according to embodiment 10 of the present invention;

FIG. 15 is a schematic view of a connecting structure according to embodiment 11 of the present invention; and

FIG. 16 is a schematic view of a connecting structure according to embodiment 12 of the present invention.

In the drawings: 1—upper decorative panel, 2—connector, 3—bottom plate, 4—clamping groove, 5—clamping strip, 6—horizontal plane, 7—protruding portion, 8—shielding strip, 9—protruding rib, 10—decorative cover, 11—cavity, 12—opening, 13—closing strip, 14—hiding groove, 15—avoidance groove, 16—lower decorative panel, 17—upper inserting strip, 18—upper water blocking strip, 19—lower inserting strip, 20—spacing strip, 21—decorative strip, 22—water blocking strip under.

DESCRIPTION OF THE DRAWINGS

The substantive features of the present invention will be further described below in combination with the specific embodiments with reference to the drawings.

As illustrated in FIGS. 1-16, a decorative panel mounting structure consists of decorative panels 1 spliced in a matching manner and a connector 2 provided between adjacent decorative panels 1, the decorative panel comprises an upper decorative panel 1 provided above the connector and a lower decorative panel provided below the connector, the inner side of the connector 2 is provided with a bottom plate 3 fitting with and fixedly connected to a wall surface, the middle of an end surface of the decorative panel is provided with a clamping groove 4, an outer end portion of the connector 2 vertically extends to form a clamping strip 5 inserted into the clamping groove 4 for positioning, the adjacent decorative panels 1 are fixedly connected to the wall surface through the clamping grooves 4 with which the corresponding clamping strips 5 are sleeved, and an area on the end surface of the decorative panel 1 and on the outer side of the clamping groove 4 is a horizontal plane 6.

In an actual operation, the connector 2 is strip-shaped, and the connector 2 extends along the width direction thereof to form a vertically configured clamping strip 5. Mounting is implemented through the following steps:

1. A first connector 2 is fixedly connected to a predetermined station through a fastener penetrating through a bottom plate 3;

2. a corresponding clamping strip 5 of the first connector 2 is sleeved with a clamping groove 4 on one side of a first decorative panel 1, in which case the clamping strip 5 on the first connector 2 is clamped into the corresponding clamping groove 4 of the first decorative panel 1, the bottom plate 3 on the first connector 2 is embedded in a hiding groove 14 of the first decorative panel 1, and the inner hidden surface of the first decorative panel 1 is fit to the wall surface; and

3. a clamping strip 5 on a second connector 2 is clamped into a clamping groove 4 on the other side of the first decorative panel, and then the second connector 2 is fixed to a predetermined station through a fastener, in which case the clamping strip 5 on the second connector 2 is clamped into the corresponding clamping groove 4 of the first decorative panel 1, a bottom plate 3 on the second connector 2 is embedded into the hiding groove 14 of the first decorative panel 1, and a clamping strip 5 for mounting of the second decorative panel 1 is reserved on one side of the second connector 2 and back on to the first decorative panel 1.

The decorative panels 1 can be mounted quickly by repeating the above steps. The adjacent decorative panels 1 are vertically positioned through the end surfaces abutting each other, and the clamping strip 5 and the clamping groove 4 cooperate with each other to achieve positioning of the decorative panel 1 on the wall surface.

In the actual operation, a through hole for the fastener to penetrate through is provided on the bottom plate 3 of the connector 2, the connector 2 between the decorative panels 1 is generally connected to a mounted decorative panel 1 through a first side thereof, a second side provides a connecting structure for mounting of another decorative panel 1, and the through hole is generally provided on the bottom plate 3 of the connector 2 on the second side thereof. In addition, the bottom plate 3 may be provided on only the second side of the connector 2, as illustrated in FIG. 1, or may be provided on both the first side and the second side of the connector 2, both cases shall be regarded as specific embodiments of the present invention.

In the actual operation, the edge of the inner hidden surface of the decorative panel 1 and facing the wall surface is depressed to form the hiding groove 14 for accommodating the bottom plate 3, and the depth of the hiding groove 14 matches the thickness of the bottom plate 3. The periphery of the inner hidden surface of the decorative panel 1 is provided with a ring groove, so as to facilitate mounting of the decorative panel 1 to the connector 2 in any posture and provide a hiding space for the bottom plate 3.

In the actual operation, an outer side wall of the bottom plate is provided with an avoidance groove 15, and the depth of the avoidance groove 15 matches the thickness of a fastener end portion, so as to ensure that the whole fastener end portion is hidden in the avoidance groove 15.

In the actual operation, the connector may be strip-shaped and laid along the edge of the decorative panel, or may be block-shaped, and the edge of the decorative panel may be positioned through a plurality of connectors, both cases shall be regarded as specific embodiments of the present invention.

Embodiment 1

As illustrated in FIG. 2, the connector 2 is I-shaped, an inner vertical portion of the connector 2 forms the bottom plate 3, two ends of an outer vertical portion of the connector 2 form the clamping strip 5, and the decorative panels 1 are fixedly connected to each other through the connector 2, such that exposed surfaces of the decorative panels 1 are flatly spliced. During mounting, the adjacent decorative panels 1 are assembled in a matching manner through the connector 2, and after the mounting, the end surfaces of the decorative panels 1 fit with each other, thereby not only improving positioning stability of the decorative panel 1, but also covering the connector 2 so as to ensure the flatness of the exposed surfaces of the decorative panels 1.

In the actual operation, the distance from the clamping groove 4 to the inner hidden surface of the decorative panel 1 is the same as the distance from the clamping strip 5 to the bottom surface of the bottom plate 3, so as to ensure that after the decorative panel 1 is mounted, the inner hidden surface thereof can be fit to the wall surface in a matching manner.

Embodiment 2

As illustrated in FIG. 3, the outer side of the connector 2 is provided with an exposed protruding portion 7, and the outer edge of the end surface of the decorative panel 1 abuts end walls of two ends of the protruding portion 7. An outer end of the connector 2 is provided with an integrally formed protruding portion 7, and the protruding portion 7 is provided with a decorative surface.

The protruding portion 7 plays a role of spacing the decorative panels 1, such that the edge of the single decorative panel 1 is more obvious. The decorative surface of the protruding portion 7 is provided with a decorative shape or pattern. For example, the top surface of the protruding portion 7 is semicircular, triangular, or zigzag et al., so as to provide diversified decorative styles for the user after the decorative panel 1 is mounted.

In the actual operation, an outer end surface of the protruding portion 7 may be configured to be in flush with the exposed surface of the decorative panel 1, and the outer end surface of the protruding portion 7 forms a decorative surface; or, the outer end surface of the protruding portion 7 protrudes from the exposed surface of the decorative panel 1, as illustrated in FIG. 4, and the outer end surface of the protruding portion 7 and the outer edge of the side wall form a decorative surface, both cases shall be regarded as specific embodiments of the present invention.

Embodiment 3

As illustrated in FIG. 5, an outer end of the protruding portion 7 protrudes from the exposed surface of the decorative panel 1, the bottom edge and the top edge of the outer end surface of the protruding portion 7 respectively and vertically extend to form a shielding strip 8, and an inner side wall of the shielding strip 8 abuts the edge of the exposed surface of the decorative panel 1.

In the actual operation, since the shielding strip 8 may not play a role of fixing the decorative panel 1, the thickness of the shielding strip 8 may be configured to be the same as that of a thin sheet to reduce production costs.

Embodiment 4

As illustrated in FIG. 6, the protruding portion 7 comprises a protruding rib 9 formed by extending the outer end of the connector 2 outwards and a decorative cover 10 covering an outer end portion of the protruding rib 9.

An exposed surface of the decorative cover 10 has a decorative function. Due to the feature of quick mounting and dismounting of the decorative cover 10, the user can change the decorative style by changing the decorative cover 10, thereby effectively reducing use costs.

In the actual operation, the connection strength between the decorative cover 10 and the protruding rib 9 may be improved by providing a fastening structure, which shall also be regarded as a specific embodiment of the present invention.

Embodiment 5

On the basis of embodiments 1, 2, 3, and 4, a cavity 11 is provided in the connector 2, as illustrated in FIG. 7.

During production, the connector 2 is produced by means of extrusion molding, so as to facilitate processing of the cavity 11 and reduce the production costs in a situation in which the structural strength of the connector 2 is slightly affected.

Embodiment 6

On the basis of embodiment 5, the outer end surface of the protruding portion 7 is provided with an opening 12 communicating with the cavity 11, as illustrated in FIG. 8, such that the protruding portion 7 is more decorative.

In the actual operation, the periphery of the opening 12 extends horizontally inwards to form a closing strip 13, which plays a role of clamping and fixing a clamped hanger.

Embodiment 7

Compared with embodiment 1, this embodiment provides a connector assembling structure.

As illustrated in FIG. 9 and FIG. 10, the upper decorative panel 1 is provided above the connector, the bottom surface of the upper decorative panel 1 is provided with a clamping groove 4 opened downwards, the mouth of the clamping groove 4 forms an upper inserting strip 17 and an upper water blocking strip 18 with bottom edge altitudes thereof configured to be staggered, after being mounted in place, the top of the clamping strip 5 is tightly clamped between the upper inserting strip 17 and the upper water blocking strip 18, and an inner side wall of the clamping strip 5 closely fits with an outer side wall of the upper inserting strip 17.

In this embodiment, an upper gap with a curved cross section is formed between the connector and the bottom surface of the upper decorative panel 1, and an inner side section of the upper gap and close to the wall surface is above an outer side section far away from the wall surface, such that it is not easy for water in an outer side space to enter an inner side space through the upper gap. In addition, the inner side wall of the clamping strip 5 closely fits with the outer side wall of the upper inserting strip 17, so as to spacing the outer side section and the inner side section, further improving the anti-splashing water effect.

In this embodiment, the assembling structure comprises a lower decorative panel 16 mounted below the connector, the inner edge close to the wall surface of a top surface of the lower decorative panel 16 forms a lower inserting strip 19, and after the assembly is completed, the lower inserting strip 19 is tightly inserted between the bottom of the clamping strip 5 and the wall surface from bottom to top, such that a bottom surface of the upper water blocking strip 18 overlaps the lower decorative panel 16. An assembly gap is reserved between a top surface of the clamping strip 5 and the bottom surface of the upper decorative panel 1, and the inner side wall of the clamping strip 5 closely fits with an outer side wall of the lower inserting strip 19. The connector can fix both the upper decorative panel 1 and the lower decorative panel 16 adjacent to the connector as needed.

Since the size of the wall surface is greater than the size of the decorative panel, it is necessary to splice multiple layers of decorative panels configured at staggered altitudes during mounting to cover the whole wall surface. The upper decorative panel 1 and the lower decorative panel 16 are in a relative concept with respect to the position of the connector, which do not specifically refer to a certain layer of decorative panels, because the decorative panels of the same layer are upper decorative panels 1 with respect to connectors below them, and are lower decorative panels 16 with respect to connectors above them. Therefore, on the same decorative panel, the bottom surface thereof has a structure of the upper decorative panel 1 and the top surface thereof has a structure of the lower decorative panel 16, so as to ensure that the decorative panels can be mounted in a sequential stacking manner. During mounting, in order to ensure mounting precision, a lower-to-higher sequentially mounting manner is generally adopted and implemented through the following steps:

1. a first layer of connectors at the bottom of the wall surface are mounted, and the connector overlaps the ground through the bottom surface of the clamping strip 5, and is fixedly connected to the wall surface through the fastener penetrating through the bottom plate;

2. a first layer of decorative panels at the bottom of the wall surface are mounted on the first layer of connectors, the first layer of decorative panels are inserted into the clamping grooves 4 on the first layer of connectors through the upper inserting strips 17 provided at the bottom thereof, such that the bottoms of the first layer of decorative panels are firmly connected to the first layer of connectors, in which case the bottom plates of the first layer of connectors are hidden in the hiding grooves of the first layer of decorative panels, the inner side walls of the bottoms of the first layer of decorative panels fit the wall surface, and the bottom surfaces of the upper water blocking strips 18 fit with the ground;

3. a second layer of connectors are mounted on the first layer of decorative panels, the lower inserting strips 19 provided on the top surfaces of the first layer of decorative panels are sleeved with the second layer of connectors through the gaps between the bottoms of the clamping strips 5 and the wall surface, and the second layer of connectors are positioned at the predetermined altitude through the fasteners, in which case the inner side walls of the first layer of decorative panels fit with the wall surface; and

4. subsequent mounting of the decorative panels and connectors is completed by repeating the above steps, and extends from bottom to top of the wall surface, so as to complete laying of the decorative panels.

In this embodiment, the altitude of the upper water blocking strip 18 matches the altitude of the clamping strip 5. After the upper decorative panel 1 is mounted in place, the bottom surface of the upper water blocking strip 18 is configured to be in flush with the bottom edge of the clamping strip 5, not only effectively increasing an altitude difference between the bottom surface of the upper water blocking strip 18 and the top surface of a top plate to improve the anti-splashing water effect, but also covering the clamping strip 5 through the upper water blocking strip 18. When the connector is provided at the bottom of the wall surface and the lower decorative panel 16 cannot be provided below the connector, the clamping strip 5 can only be covered by the upper decorative panel 1 provided above the connector. Therefore, the upper water blocking strip 18 extends downwards and the bottom thereof is configured to be in flush with the bottom edge of the clamping strip 5, so as to achieve the purpose of covering the clamping strip 5.

Embodiment 8

Compared with embodiment 7, this embodiment provides another connector assembling structure.

As illustrated in FIG. 10, the bottom edge of the clamping strip 5 extends outwards to form a spacing strip 20. After the assembly is completed, the bottom surface of the upper water blocking strip 18 and the outer edge of the top surface of the lower decorative panel 16 cooperate with each other and vertically clamp the spacing strip 20, such that an outer end surface of the spacing strip 20 is exposed. The bottom surface of the upper water blocking strip 18 tightly overlaps the top surface of the spacing strip 20, and the bottom surface of the spacing strip 20 overlaps the outer edge of the top surface of the lower decorative panel 16, so as to improve the anti-splashing water performance by increasing a contact area.

In this embodiment, the outer end surface of the spacing strip 20 is configured to be in flush with an outer side wall of the upper decorative panel 1 in the vertical direction, not only ensuring that the exposed decorative surface formed by splicing the decorative panels has better flatness, but also obtaining better aesthetics by means of visual disparity between the spacing strip 20 and the exposed surface of the decorative panel to improve the decorative effect. The spacing strip 20 plays a role of isolating each layer of decorative panels.

In this embodiment, the spacing strip 20 may be a solid structure, or a hollow structure opened towards the outside for the purposes of reducing raw materials, providing hanging points, and the like, which shall also be regarded as a specific embodiment of the present invention.

Embodiment 9

Compared with embodiment 8, this embodiment provides another connector structure.

As illustrated in FIG. 11 and FIG. 12, an outer end of the spacing strip 20 is bent to form a decorative strip 21, and the decorative strip 21 overlaps the edge of an outer side wall of the upper decorative panel 1 or the lower decorative panel 16. The spacing strip 20 extends from the decorative panel in a direction back on to the wall surface and is bent to form the decorative strip 21, and the decorative strip 21 has a larger width, such that a separation effect between the decorative panels is more obvious. The decorative strip 21 protrudes from the exposed surface of the decorative panel, such that the integrated wall surface has a three-dimensional visual effect. In addition, the decorative strip 21 overlaps the edge of the decorative panel to horizontally position the decorative panel, thereby avoiding a situation in which the decorative panel is separated from the wall surface.

Embodiment 10

Compared with embodiment 9, this embodiment provides another connector structure.

As illustrated in FIG. 13, the decorative strip 21 is sleeved with a decorative cover 10, a groove strip is provided on an inner side wall of the decorative cover 10, and the decorative cover 10 completely covers the decorative strip 21 through the groove strip. The decorative cover 10 may be dismounted and replaced at any time, and the user may replace it with a decorative strip 21 matching the decorative style as needed, so as to improve the decorative effect, facilitate the user operation, and reduce the use costs.

In this embodiment, the decorative strip 21 is firmly sleeved with the groove strip by means of snap joint or interference fit, and the decorative strip 21 forms a force applying point for mounting the decorative cover 10, so as to ensure that the decorative cover 10 is precisely mounted and spliced with the decorative panel in a matching manner.

Embodiment 11

Compared with embodiment 7, this embodiment provides another connector structure.

As illustrated in FIG. 14, the outer edge of the top surface of the lower decorative panel 16 extends upwards to form a lower water blocking strip 22. After the assembly is completed, the bottom surface of the upper water blocking strip 18 overlaps a top surface of the lower water blocking strip 22.

The altitude of the upper water blocking strip 18 matches the altitude of the lower water blocking strip 22, such that an upper portion and a lower portion of an outer side wall of the clamping strip 5 are respectively covered by the upper water blocking strip 18 and the lower water blocking strip 22. Therefore, the anti-splashing water effect is improved by forming curved upper gap and lower gap, and processing and mounting processes are simplified by unifying connecting structures of the top surface and the bottom surface of the decorative panel, thereby facilitating the use.

Embodiment 12

Compared with embodiment 11, this embodiment provides another connector structure.

As illustrated in FIG. 15 and FIG. 16, the middle of the outer side wall of the clamping strip 5 extends outwards to form a spacing strip 20. After the assembly is completed, the bottom surface of the upper water blocking strip 18 and the top surface of the lower water blocking strip 22 cooperate with each other and vertically clamp the spacing strip 20, such that an outer end surface of the spacing strip 20 is exposed. The bottom surface of the upper water blocking strip 18 tightly overlaps the top surface of the spacing strip 20, and the bottom surface of the spacing strip 20 overlaps the top surface of the lower water blocking strip 22, so as to improve the anti-splashing water performance by increasing a contact area.

In this embodiment, the spacing strip 20 may be a solid structure, or a hollow structure opened towards the outside for the purposes of reducing raw materials, providing hanging points, and the like, which shall also be regarded as a specific embodiment of the present invention. When the spacing strip is a hollow structure, a cavity with an opening is provided therein, the opening extends outwards to form a decorative strip 21, and the decorative strip 21 achieves waterproof and blocking functions by fitting with the corresponding decorative panel. The openings extend towards each other to form a closing strip 13, and the closing strip and the decorative strip are integrated to form a plate member. 

1. A decorative panel mounting structure, comprising decorative panels spliced in a matching manner and a connector provided between adjacent decorative panels, the decorative panels comprising an upper decorative panel provided above the connector and a lower decorative panel provided below the connector, the inner side of the connector being provided with a bottom plate fitting with and fixedly connected to a wall surface, wherein the middle of an end surface of the decorative panel is provided with a clamping groove, an outer end portion of the connector vertically extends to form a clamping strip inserted into the clamping groove for positioning, the adjacent decorative panels are fixedly connected to the wall surface through the clamping grooves with which the corresponding clamping strips are sleeved, and an area on the end surface of the decorative panel and on the outer side of the clamping groove is a horizontal plane.
 2. The decorative panel mounting structure according to claim 1, wherein the outer side of the connector is provided with an exposed protruding portion, and the outer edge of the end surface of the decorative panel abuts end walls of two ends of the protruding portion.
 3. The decorative panel mounting structure according to claim 2, wherein an outer end of the connector is provided with the integrally formed protruding portion, and the protruding portion is provided with a decorative surface.
 4. The decorative panel mounting structure according to claim 2, wherein an outer end of the protruding portion protrudes from an exposed surface of the decorative panel, the bottom edge and the top edge of an outer end surface of the protruding portion respectively and vertically extend to form a shielding strip, and an inner side wall of the shielding strip abuts the edge of the exposed surface of the decorative panel.
 5. The decorative panel mounting structure according to claim 2, wherein the protruding portion comprises a protruding rib formed by extending the outer end of the connector outwards and a decorative cover covering an outer end portion of the protruding rib.
 6. The decorative panel mounting structure according to claim 1, wherein the connector is I-shaped, an inner vertical portion of the connector forms the bottom plate, two ends of an outer vertical portion of the connector form the clamping strip, and the decorative panels are fixedly connected to each other through the connectors, such that the exposed surfaces of the decorative panels are flatly spliced; or, the surface of the clamping strip is provided with anti-slip teeth; or, the bottom plate is fixedly connected to a predetermined station through a fastener, and an outer side wall of the bottom plate is provided with an avoidance groove matching the fastener.
 7. The decorative panel mounting structure according to claim 2, wherein a cavity is provided in the connector.
 8. The decorative panel mounting structure according to claim 7, wherein an outer end surface of the protruding portion is provided with an opening communicating with the cavity.
 9. The decorative panel mounting structure according to claim 8, wherein the periphery of the opening vertically extends inwards to form a closing strip.
 10. The decorative panel mounting structure according to claim 1, wherein the edge of an inner side wall of the decorative panel and facing the wall surface is depressed to form a hiding groove for accommodating the bottom plate, and the depth of the hiding groove matches the thickness of the bottom plate.
 11. The decorative panel mounting structure according to claim 1, wherein the upper decorative panel is provided above the connector, a bottom surface of the upper decorative panel is provided with the clamping groove opened downwards, the mouth of the clamping groove forms an upper inserting strip and an upper water blocking strip bottom edge altitudes thereof configured to be staggered, after being mounted in place, the top of the clamping strip is tightly clamped between the upper inserting strip and the upper water blocking strip, and an inner side wall of the clamping strip closely fits with an outer side wall of the upper inserting strip.
 12. The decorative panel mounting structure according to claim 11, wherein the altitude of the upper water blocking strip matches the altitude of the clamping strip, and after being mounted in place, a bottom surface of the upper water blocking strip is configured to be in flush with the bottom edge of the clamping strip.
 13. The decorative panel mounting structure according to claim 11, wherein the lower decorative panel is provided below the connector, the inner edge of a top surface of the upper decorative panel extends upwards to form a lower inserting strip, after assembly is completed, the lower inserting strip is tightly inserted between the bottom of the clamping strip and the wall surface from bottom to top, such that a bottom surface of the upper water blocking stripe-overlaps a top surface of the lower decorative panel, an assembly gap is reserved between a top surface of the clamping strip and the bottom surface of the upper decorative panel, and the inner side wall of the clamping strip closely fits with an outer side wall of the lower inserting strip.
 14. The decorative panel mounting structure according to claim 13, wherein the bottom edge of the clamping strip extends outwards to form a spacing strip, and after the assembly is completed, the bottom surface of the upper water blocking strip and the outer edge of the top surface of the lower decorative panel cooperate with each other and vertically clamp the spacing strip, such that an outer end surface of the spacing strip is exposed.
 15. The decorative panel mounting structure according to claim 14, wherein the outer end surface of the spacing strip is configured to be in flush with an outer side wall of the upper decorative panel in the vertical direction.
 16. The decorative panel mounting structure according to claim 4, wherein an outer end of the spacing strip is bent to form a decorative strip, and the decorative strip overlaps the edge of an outer side wall of the upper decorative panel or the lower decorative panel.
 17. The decorative panel mounting structure according to claim 16, wherein the decorative strip is sleeved with a decorative cover, a groove strip is provided on an inner side wall of the decorative cover, and the decorative cover completely covers the decorative strip through the groove strip.
 18. The decorative panel mounting structure according to claim 13, wherein the outer edge of the top surface of the lower decorative panel extends upwards to form a lower water blocking strip, and after the assembly is completed, the bottom surface of the upper water blocking strip overlaps a top surface of the lower water blocking strip.
 19. The decorative panel mounting structure according to claim 18, wherein the middle of an outer side wall of the clamping strip extends outwards to form a spacing strip, and after assembly is completed, the bottom surface of the upper water blocking strip and the top surface of the lower water blocking strip cooperate with each other and vertically clamp the spacing strip, such that an outer end surface of the spacing strip is exposed. 